KR100553803B1 - System for managing data of network device in asynchronous transfer mode network and method thereof - Google Patents

Abstract

The present invention generates the information of the element management system (EMS) consisting of multiple types in a text file of the same format, and by using this to update the information of the network management system (NMS: Network Management System) The present invention relates to an information management system of a network device in an asynchronous transmission mode network, and a method thereof. An element management system by converting information of an element management system developed by different companies in an asynchronous transmission mode high-speed information communication network into a text file of the same format. It can be managed in the network management system irrespective of the information, and the information of the element management system can be compared with the information of the network management system and updated / inserted / deleted to ensure information consistency between the element management system and the network management system. It works.

Description

System for managing data of network device in asynchronous transfer mode network and method thereof

1 is a block diagram of an information management system of a network device in an asynchronous transmission mode network according to the present invention.

FIG. 2 is a flowchart of a process of updating information of an element management system to a network management system in FIG.

The present invention relates to an information management system of a network device in an asynchronous transmission mode network and a method thereof, and more particularly, to a text file having information of an element management system (EMS) composed of multiple models in the same format. The present invention relates to an information management system of a network device in an asynchronous transmission mode network for updating the information of a network management system (NMS) using the same, and a method thereof.

The network is defined in accordance with the Telecommunications Management Network (TMN) Object Class defined by the International Telecommunications Union-Telecommunication Standardization Sector (ITU-T) M.3100 and G.805. It consists of a link, an access port, and the like, and connection services are provided through one or more nodes and links through proper routing between end-to-end subscribers or physical ports.

Configuration management is the basic item among the five functions of TMN structure defined by ITU-T Recommendation M.3400 to support such connection service and to provide service through understanding failure and performance status.

In addition, in order to provide reliable services, it is necessary to build a network management system that can accurately reflect the network situation.

Therefore, changes in the field using the element management system under the network management system should be quickly reflected in the network management system.However, the discussion on how to match information between the network management system and the element management system is an error item that occurs during operation. It was nothing more than a method of individual identification and manual modification of the operator of the element management system and the operator of the network management system, or of a trap raised from the device.

In order to solve the above problems, an object of the present invention is to allow the operator of the network management system to check the entire information of the multi-element element management system without the help of the element management system operator to reflect the changes to the network management system.
The present invention also makes the database current so that the information of the network element managed by the element management system (EMS) is reflected in the database managed by the network management system (NMS), so that the network management system can quickly change the change of the network element. Another purpose is to make it possible to accurately reflect.

To this end, the information management system of a network device in an asynchronous transmission mode network according to the present invention comprises: a plurality of element management means comprising a plurality of elements for generating current management information of the network device in asynchronous transmission mode network as a text file; A database having information on network devices is provided, and the generation of a text file is instructed by a plurality of element management means, the information of the database is compared with the information of the text file generated by the plurality of element management means, and the database is updated. And a network management means for inserting information of the text file which is not present in the database and deleting information not updated in the database.

In addition, the information management method of a network device in an asynchronous transmission mode network according to the present invention includes a network management means for managing a network having a database in an asynchronous transmission mode network, and various types of element management means for managing a device constituting a network. A method for managing information of a network device, comprising: a first step of generating management information of a device in a text file in various element management systems; A second step of comparing an item of the generated text file with an item of management information of the device stored in the database of the network management means; A third step of updating an item of the database if an item of the text file exists in the item of the database as a result of the comparison in the second step; A fourth step of inserting an item of the text file into the database if the item of the text file does not exist in the item of the database as a result of the comparison in the second step; And a fifth process of deleting an item of the database that has not been updated.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Management of the nationwide network is performed by the network management system, but according to the concept of segmentation of G.805, as shown in FIG. 1, several element management systems 210 and 220 for each region and equipment type are provided under the network management system 100. I put it and operate it.

The Asynchronous Transfer Mode (ATM) element management system 210 and the Digital Subscriber Line Access Multiplexer (DSLAM) element management system 220 are divided by device vendor and region, and thus cannot be regarded as using the same database or having the same operation guidelines. .

Accordingly, the element management systems 210 and 220 of the present invention generate the current state information of the device, for example, the current state information of the board / port, in a file in the same format.

The time at which such a file is generated is determined by the operator of the network management system 100, and the authority to create the file is preferably opened to the operator of the network management system 100.

In addition, the network management system 100 according to the present invention includes an information update unit 10 to allow each element management system 210 or 220 to generate a file including the current state information of the device by an operator's command. Then, the database 20 is updated with the latest information by using the generated file information.

Hereinafter, the files generated by the element management systems 210 and 220 will be described.

Each element management system 210, 220 generates a text file in the same format as follows.

class (oc_node): snwRdn: nodeRdn: psap: ssap: tsap: nsap: opState: class (oc_board): boardId: boardType: opState: class (oc_vpltp): type: portRdn: egBw: ingBw: vpiRange: vciRange: maxVpc: maxVcc : opState: class (oc_vcltp): portRdn: vpi: egBw: ingBw: vciRange: maxVcc: class (oc_frltp): type: portRdn: egBw: ingBw: flag: charInfo: opState: class (oc_frsubport): subPortRdn: charInfo: channelInfo: class (oc_vpaccessltp): type: portRdn: egBw: ingBw: vpiRange: vciRange: maxVpc: maxVcc: opState: class (oc_vcaccessltp): portRdn: vpi: egBw: ingBw: vciRange: maxVcc: =:

Each element management system (210, 220) has all the information of the node oc_node, the board oc_board, the physical port is ATM oc_vpltp (NNI: Network to Network Interface), oc_vpaccessltp (UNI: User Network Interface), FR (Frame Relay) ), Oc_frltp, logical port is oc_vcltp (NNI), oc_vcaccessltp (UNI) for ATM, oc_frsubport object class (Class) in case of FR.

In addition, only one resource should be described in one item of the file, and each file should contain the node ID in the file name for each node.

Attributes should be separated by ':' in each item, and also separated by ':' at the end of a line.

First, the node information must begin with oc_node on the first line of the file, snwRdn (snw Relatively Descriptive Name, ID that identifies the element management system), nodeRdn (ID that uniquely identifies each node within the element management system). in this order: psap address, ssap address, tsap address, nsap address (identifier specified in X.213 to provide network services), and opState (fault state specified in X.731).

The board information is on the line starting with oc_board: boardId (the ID determined solely by the rack, shelf, and slot on which the board is mounted), boardType (the name of the board determined by the device vendor), and opState. Sort in order.

ATM NNI physical port information is determined by the line starting with oc_vpltp by type (type according to bandwidth, Synchronous Transport Module Level-1 (STM-1), Digital Signal level-1 European (DS1E), etc.), portRdn (mounting location). Lost ID), egBw (Egress Bandwidth), ingBw (Ingress Bandwidth), VpiRange (range of virtual path identifiers that the port can use), VciRange (range of virtual channel identifiers (VCIs) the port can use), Sort in order of maxVpc (maximum number of virtual path connections (VPC) that can be connected to a port), maxVcc (maximum number of virtual channel connections (VCC) that can be connected to a port), and opState.

The ATM NNI logical port information is arranged in the order starting with oc_vcltp in the following order: portRdn (physical port ID), vpi (VPI value used), egBw, ingBw, maxVcc, opState.

FR physical port information is arranged in the order of oc_frltp in the following order: type, portRdn, egBw, ingBw, flag (channelization / dechannelization), charInfo (structure indicating FR characteristics), and opState.

FR logical port information is present if the FR physical port is channelized. This information is sorted on the line starting with oc_frsubport in the following order: subPortRdn (the ID that is uniquely determined using the physical port ID and the channel ID to use), charInfo, and channelInfo (the list of channels to use).

The ATM UNI physical port information is arranged in the order starting with oc_vpaccessltp in the following order: type, portRdn, egBw, ingBw, VpiRange, VciRange, maxVpc, maxVcc, opState.

The ATM UNI logical port information is arranged in the order starting with oc_vcaccessltp in the following order: portRdn, vpi, egBw, ingBw, maxVcc, opState.

These files are created one per element management system.

2 is a process of updating the database 20 by using the information of the text file of each element management system 210 and 220 including the information described above in the information update unit 10 of the network management system 100. Shows a flow chart.

First, the operator of the network management system 100 instructs each element management system (210, 220) to generate a file (S310).

The generated file reflects the current state of the device, and there may be added boards, deleted boards, or properties changed.

Subsequently, it is determined whether a file generated from each of the element management systems 210 and 220 exists (S320), and if the file exists, one file among the files of the element management system using the node ID used in the file name. Select (S330).

Then, the item of the selected file is read (S340), the attribute of the item corresponding thereto is updated in the database 20, and the date tag of the data is also changed at the updated time (S350).

Subsequently, it is determined whether the item update is successful (S360).

If the update is successful, it is determined whether it is the end of the file (S370), and if it is not the end of the file, the next update item is found (S390). Update

However, if the update is not successful, since there is no item to update in the database 20, it means the addition of a new item, that is, the new board is inserted into the device, for example, the item read in the above-described process. In step S380, the next update item is found (S390), and the process is repeated from the aforementioned read step (S340).

That is, several items of a file are updated one after another, and if there are no items, new items are inserted to update the current state of the device.

When all items of one file are updated and it is determined that the file is the end (S370), it is determined again whether there is an unupdated file of another element management system (S320), and if the file exists, the file as described above. Update all of the element management system's files by updating the items in and repeating them.

If the files of all element management systems are updated and there are no files to be updated, the newly updated database 20 is searched and the item whose date tag is not set to the time of the current update is not updated. Delete (S400) and finish the update process.

This is because an item whose date tag is not changed at the time when the update is made does not have the information in a file generated by the element management system, and thus may be determined as a board or a port deleted from the device.

The information update method of the database 20 of the network management system 100 performed by this process may be performed using Structured Query Language (SQL) or may be performed using other languages.

As described above, the present invention can be managed in the network management system irrespective of the type of the element management system by converting the information of the element management system developed by different companies in the asynchronous transmission mode high-speed information communication network into a text file of the same format. In addition, the information of the element management system is compared with the information of the network management system and updated / inserted / deleted, thereby ensuring the information consistency between the element management system and the network management system.

Claims (4)

A plurality of element management means comprising a plurality of elements for generating the current management information of the network device in a text file in an asynchronous transmission mode network; And a database for holding information about the network device, instructing the plurality of element management means to generate the text file, updating the information of the database by comparing the information with the generated text file, and updating the database. And network management means for newly storing information of the text file which is not present in the database and deleting information not updated in the database. The method of claim 1, The network management means changes the date tag of the database to the time at which the update was made when updating the information, and deletes if the date tag is not at the time at which the update was made when deleting the information. Information management system of network device in transmission mode network. In the method of managing information of the network device comprising a network management means for managing the network by having a database in the asynchronous transmission mode network and a multi-element element management means for managing the devices constituting the network, A first step of generating management information of the device in a text file in the multiple element management systems; A second step of comparing an item of the generated text file with an item of management information of the device stored in a database of the network management means; A third step of updating an item of the database if an item of the text file exists in the item of the database as a result of the comparison in the second step; A fourth step of inserting an item of the text file into the database if the item of the text file does not exist in the item of the database as a result of the comparison in the second step; And And a fifth step of deleting the item of the database that has not been updated. The method of claim 3, wherein In the third step, when updating the information, the date tag of the database is changed to the time when the update is made, The information management method of a network device in an asynchronous transmission mode network, wherein in the fifth step, when the information is deleted, the date tag is deleted when the update is not performed.

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